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Model-Based Hybrid Cooperative Control of Hip-Knee Exoskeleton and FES Induced Ankle Muscles for Gait Rehabilitation

Xikai Tu, Jiaxin Li, Jian Li, Chen Su, Shali Zhang, Haoran Li, Jingyan Cao, Jiping He

发表年份
2017
引用次数
10

摘要

To regain mobility, stroke patients need to receive repetitive and intensive therapy. Robot-assisted rehabilitation is an active area of research. Cheap robotic leg rehabilitation devices should be developed to meet the demands and assist most patients. A low cost hip-knee exoskeleton prototype powered by pneumatic muscles was developed. On this basis, Functional Electrical Stimulation (FES) induced paralyzed muscles to realize ankle joint rehabilitation training. These three ankle muscles: the tibialis anterior, the soleus, and the gastrocnemius under electrical stimulation cooperated together to realize optimally coordinated control of dorsiflexion and plantar-flexion movement. As both of pneumatic muscle and FES induced muscle possess highly nonlinear characteristics, a sliding control algorithm called Chattering mitigation Robust Variable Control (CRVC) was applied to leg hybrid rehabilitation. The combination of exoskeleton and FES is a promising way to reduce the cost and the complexity of designing hip-knee-ankle exoskeleton. The proposed hybrid method was verified by treadmill-based gait training experiments.

关键词

ExoskeletonFunctional electrical stimulationAnklePhysical medicine and rehabilitationRehabilitationGaitGait trainingComputer scienceTreadmillPowered exoskeleton

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